Phytochemical investigation of aerial parts of
Helichrysum niveum (
H. niveum) using different chromatographic methods including semi-preparative HPLC afforded three new (
1–
3) and six known (
4–
10) acylphloroglucinols alongside a known dialcohol triterpene (
11). The structures of the isolated compounds were characterized accordingly as 1-benzoyl-3 (3-methylbut-2-enylacetate)-phloroglucinol (helinivene A,
1), 1-benzoyl-3 (2
S-hydroxyl-3-methylbut-3-enyl)-phloroglucinol (helinivene B,
2), 8-(2-methylpropanone)-3
S,5,7-trihydroxyl-2,2-dimethoxychromane (helinivene C,
3), 1-(2-methylbutanone)-4-
O-prenyl-phloroglucinol (
4), 1-(2-methylpropanone)-4-
O-prennyl-phloroglucinol (
5), 1-(butanone)-3-prenyl-phloroglucinol (
6), 1-(2-methylbutanone)-3-prenyl-phloroglucinol (
7), 1-butanone-3-(3-methylbut-2-enylacetate)-phloroglucinol (
8), 1-(2-methylpropanone)-3-prenylphloroglucinol (
9), caespitate (
10), and 3β-24-dihydroxyterexer-14-ene (
11). Excellent total antioxidant capacities were demonstrated by helinivenes A and B (
1 and
2) when measured as oxygen radicals absorbance capacity (ORAC), ferric-ion reducing antioxidant power (FRAP), trolox equivalent absorbance capacity (TEAC) and including the inhibition of Fe
2+-induced lipid peroxidation (IC
50 = 5.12 ± 0.90; 3.55 ± 1.92) µg/mL, while anti-tyrosinase activity at IC
50 = 35.63 ± 4.67 and 26.72 ± 5.05 µg/mL were also observed for
1 and
2, respectively. This is the first chemical and
in vitro biological study on
H. niveum. These findings underpin new perspectives for the exploitation of these natural phenolic compounds in applications such as in the natural cosmeceutical and pharmaceutical sectors.
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